Circuit interrupter provided with main and auxiliary contacts in parallel sequentially operable to open the circuit first at the main contacts followed by the auxiliary contacts



17 Sheets-Sheet 1 W. A. GUSSOW ETAL PROVIDED WITH MAIN AND AUXILIARY CONTACT IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS CIRCUIT INTERRUPTER Oct. 27, 1964 Original Filed Dec. 23, 1957 INVENTORS' Wllmm d. 64495040 BY mm Oct. 27, 1964 w. A. GUSSOW ETAL 3,154,656

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet 2 INVENTORS WCZZZQUZ (2 61455011), BY Jam J ma 0d. 27, 1964 w, ussow ETAL 3,154,656

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet 3 DWENTORS Oct. 27, 1. w. A. sussow ETAL 5 CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet 4 C rzdacfa Gw/r i 72g Oct. 27, 1964 w, ussow ETAL 3,154,656

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL \SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet 5 & I I 2 I [Q N I m A) Q Q *E R A k Q 2g i a 0 Q Q l. g) a 0 g b a Q 'Q i &

O o Q INVENTORS WzZZzam CZ. Gmfieoa BY Jo/zrz Lilia/06,

Gaskei CONTACTS CUIT 17 Sheets-Sheet 6 Oct. 27, 1964 A. GUSSOW ETAL v DED WITH MAIN AND AUXILIARY LLY OPERABLE TO OPEN THE CIR CIRCUIT INTERRUPTER PROVI IN PARALLEL SEQUENTIA FIRST AT THE MAIN CONTACTS FOLLOWED BY THEAUXILIARY CONTACTS Original Filed Dec. 23, 1957 mam/24mm 3 BY L/(97Z -f M41109; W M7 m 5 gm m QM. mw QM m W MN. W QR 1 mm @w NR M w Q :i I QM \mM m R WNW RR 1 A m 3 If QM. Rh MR QRm g F NM WW m? I I H I I R Q WI I: b $b$kw wwv g 7. Q R%\ v Qk\ l I A H UzbtbQbTaNl fl l Wh wxb n QM Q QM N i MQ v H k MN m my Qmv mg L g MM Oct. 27, 1964 w. A. GUSSOW ETAL 6 CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 1'? Sheets-Sheet 7 E ma 1 3,154,656 LIARY CONTACTS N THE CIRCUIT WED BY CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXI IN PARALLEL SEQUENTIALLY OPERABLE TO OPE FIRST AT THE MAIN CONTACTS FOLLO THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet 8 Qm Q Q Q. Q 6 gm. @W WM m I%\ mmm a w w MN m Tm; g w & @NR N /m KNN QE M E g bi m RQN I .1 I .I. v 6m I \I h R @N W MF r r r I I m w En I AI w Q Q 3 x I NR N NW 1 I I \Q RE I MN R I I I I m3 0 bfimww Q k RE $59528 g Oct. 27, 1964 w. A. GUSSOW ETAL CONTACTS BLEZ TO OPEN THE CIRCUIT CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY IN PARALLEL SEQUENTIALLY OPERA FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec.

w. A. GUSSOW ETAL 3, 5 R PROVIDED WITH MAIN AND AUXILIARY CONTACTS THE AUXILIARY CONTACTS l7 Sheets-Sheet l0 2 INVENTOR5- mzliam n 6055010,

Oct. 27, 1964 v CIRCUIT INTERRUPTE IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY Original Filed Dec. 23, 1957 mm mm Oct, 27, 1964 w. A. GUSSOW ETAL 3,154,656

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-$heet 11 3,154,656 D AUXILIARY CONTACTS PEN THE CIRCUIT LOWED BY Oct. 27, 1964 w. A. eussow ETAL CIRCUIT INTERRUPTER PROVIDED WITH MAIN AN IN PARALLEL. SEQUENTIAL OPERABLE TO FIRST AT THE M CONTACTS FOL THE AUXILIARY CONTACTS Original Filed Dec. 25, 1957 w 17 Sheets-Sheet 12 INVENTORS 0 Q v W L x5 4 WN p/M v Jvwww A wmw Q w w A Get. 27, 19% w. A. sussow ETAL 3,154,656

CIRCUIT ERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN P LLEL SEQUENTIAL-LY QPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet l3 WENTORg. 561M501, BY John J M41209, M W

Wa l/[am Oct, 7, 1964 w. A. GUSSOW ETAL,

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FOLLOWED BY FIRST AT THE MAIN CONTACTS THE AUXILIARY CONTACTS Ongmal Flled Dec 23, 1957 17 Sheets-Sheet 14 wmw g L kww .wwm QM 3% R, %w an [NVEN T0515 WJZZOTIZ a Gus-50w,

John J Wm 7 MNM z Oct. 27, 1964 w. A. Gussow ETAL 3,154,656

CIRCUIT INTERRUPTER- PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE. CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Filed Dec. 23, 1957 17 Sheets-Sheet 15 1NvE/v7'0fi5 Wdlarrz 62 61155010 3y John L/ M0206,

Oct. 27, 1964 w. A. GUSSOW ETAL 3,154,656

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE CIRCUIT FIRST AT THE MAIN CONTACTS FOLLOWED BY CONTACTS THE AUXILIARY Original Filed Dec. 23, 1957 17 Sheets-Sheet 16 QQM ag'wsow, JO/zrz J Waa Oct. 27, 1964 w. A. sussow ETAL 3,154,656

CIRCUIT INTERRUPTER PROVIDED WITH MAIN AND AUXILIARY CONTACTS IN PARALLEL SEQUENTIALLY OPERABLE TO OPEN THE cmcurr FIRST AT THE MAIN CONTACTS FOLLOWED BY THE AUXILIARY CONTACTS Original Fiiled Dec. 23, 1957 17 Sheets-Sheet 17 INVENTORS a 6m WzZZZm United States Patent CIRCUIT HNTERRUPTER PRQVHDED WHTH MAKN AND AUXllLlARY CQNTACTS IN PARALLEL SEQUENTEALLY @PERABLLE T0 OPEN THE (ZER- CEJitT FIRST AT THE MAIN QQNTACTS FUEL- LUWED BY THE AUXHUARY CGNTAC'ES William A. Gussow, St. Petershurg, Fla, and John 35. Mikes, Highland Park, Ill., assignors to S dz C Electric Company, Qhicago, ill., a corporation of Delaware Original application Dec. 23, 1957, Ser. No. 704,3, now Patent No. 3,030,481, dated Apr. 17, 1962. Divided and this application May 16, 1961, Ser. No. 120,106

20 Claims. (Cl. 200-145) This invention relates, generally, to high voltage circuit interrupters and it has particular relation to load break disconnecting switches. This application is a division of application Serial No. 704,397, filed December 23, 1957, now Patent No. 3,030,481, issued April 17, 1962.

Among the objects of this invention are: To employ parallel arranged series connected main and auxiliary contact means for the load interrupter contacts and to open the main contact means first and thereafter the auxiliary contact means; to provide for distributing the voltage across the series connected contact means in open position thereof; to employ for the main contact means relatively heavy contacts capable of continuously carrying load current and withstanding the How of short circuit current and for the auxiliary contact means employing relatively light weight contacts the movable portion of which can be accelerated rapidly to quickly open the circuit; to secure the relatively heavy movable contacts to an insulating operating member in such manner as not to be adversely aifected by heat generated by flow of excess current, such as high momentary overloads or short circuits; to vent the are products resulting from separation of the auxiliary contacts to the atmosphere and to seal the remaining parts of the current interrupter against contamination by such are products; to provide a construction for the main and auxiliary contacts such that the magnetic forces generated by current flow tend to increase the contact pressure as a function of the current flow; to provide arc extinguishing means for the auxiliary contact means; to bias the main contact means of the load interrupter to the open position by a spring interposed between the mechanism housing and a main operating arm; to bias the auxiliary contact means of the load interrupter to the open position by an auxiliary spring interposed between the main operating arm and an auxiliary operating arm; to employ the kinetic energy of the main contact means and a portion of the biasing action of the spring operating the same to move the auxiliary contact means to open position; to wind up the spring on the reverse movement of the main and auxiliary operating arms during the rotation of the intermediate insulator in completing opening movement of the switch blade; to apply the operating torque through a single shaft for opening and closing the switch blade and load interrupter; to enclose the main and auxiliary contact means within an insulating housing which extends between the line terminal and the mechanism housing and holds the latter against rotation; and to provide a load interrupter construction in which the number of unenclosed moving parts subject to being encased by ice is reduced to a minimum.

Other objects of this invention will, in part, be obvious and in part appear hereinafter.

This invention is disclosed in the embodiment thereof shown in the accompanying drawings and it comprises the features of construction, combination of elements and arrangement of parts that will be exemplified in the construction hereinafter set forth and the scope of the application of which is set forth in the appended claims.

For a more complete understanding of the nature and scope of this invention reference can be had to the following detailed description, taken together with the accompanying drawings, in which:

FIG. 1 is a top plan view showing how the switch means of the present invention can be installed for overhead upright mounting on the frame structure, only one pole of the switch being illustrated with the supports for two others being shown for a typical three phase installation, the mechanism being shown in the position that it occupies when the disconnecting switch blade is closed and the load current interrupter is closed;

FIG. 2 is a top plan view of the operating linkage that is associated with each of the poles, the linkage being shown in the position corresponding to the open position of the disconnecting switch blade;

FIG. 3 is a view, in side elevation, of the structure shown in FIG. 1, only portions of the nearest insulators being shown;

FIG. 4 is a top plan view of the switch means in FIG. 2., the illustration being at a larger scale;

FIG. 5 is a view, in side elevation, of the switch means shown in FIG. 4;

FIG. 6 is a view, in side elevation and at an enlarged scale, of the hinge end of the switch blade, showing a portion of the switch contact mounted thereon and the mechanism housing;

FIG. 7 is a top plan view of the construction shown in FIG. 6;

FIG. 8 is a longitudinal vertical sectional view of the load interrupter unit, the insulating bushings or housings therefor being shown in section while the circuit interrupter units are shown in elevation;

FIGS. 9, 10, 11 and 12 show a vertical sectional view through the load interrupter which is provided with two units, the showing is at an enlarged scale as compared to the showing in FIG. 8 and certain of the parts are shown for illustrative purposes as being in the plane of the section when, as a matter of fact, they are inclined to this plane as will be apparent from the succeeding sectional views (FIG. 10 should be placed to the right of FIG. 9, FIG. 11 should be placed underneath FIG. 9 and FIG. 12 should be placed underneath FIG. 10);

FIG. 13 is a vertical sectional view taken generally along the line 13-13 of FIGS. 10 and 12;

FIGS. 14, 15 and 16 are vertical sectional views taken generally along the lines 14-14, 15-15 and 16-16 of FIG. 9;

FIG. 14 is also a vertical sectional along the line 14-14 of FIG. 20;

FIGS. 17, 18, 19 and 20 are vertical sectional views taken generally along the lines 17-17, 18-18, 19-19 and 20-20, respectively, of FIG. 10;

FIGS. 21, 22 and 23 are vertical sectional views taken generally along the lines 21-21, 22-22 and 23-23, respectively, of FIG. 12;

view taken generally FIG. 24 is a top plan view of the operating mechanism, the cover for its housing having been removed, and the parts being shown in the position corresponding to the closed position of the switch blade with the contacts of the load interrupter in closed position and the operating spring mechanism cocked;

FIG. 25 is a vertical sectional view taken generally along the line 2525 of FIG. 24;

FIG. 26 is a partial vertical sectional view taken generally along the line 26-26 of FIG. 24;

FIG. 27 is a horizontal sectional view taken generally along the line 2727 of FIG. 25 and shows the lower portion of the mechanism housing, the operating spring base and the operating spring mechanism which includes inner and outer springs; and

FIG. 28 is a vertical sectional view taken generally along the line 2823 of FIG. 24 and showing by full lines the positions of the cross head when the main and auxiliary contacts of the load interrupter are closed and by broken lines the positions of the cross heads when these contacts are in the open position.

Reference will be had first to FIGS. 1-5 of the drawings. The reference character 10 designates, generally, a switch support structure which may include longitudinal members 11, cross members 12 (only one being shown), and vertical members 13 all of which constitute a suitable support for gang operated switch means such as the switch means, shown generally at 14, in which the present invention is embodied. It will be understood that the present invention is employed in conjunction with a high voltage three phase alternating current power distribution system. For illustrative purposes it is pointed out that the system may be operated at a voltage of 69 kv. However, other voltages can be used with appropriate changes in design as will be understood readily. In FIGS. 1, 4 and the switch means 14 comprises one of the poles of the three pole switch and provision is made, as will appear hereinafter, for simultaneously operating each switch means 14 in order to interrupt each phase of the circuit simultaneously while load current flows therein. Since the switch means 14 for each phase is the same, only one is illustrated and described in detail herein.

Each switch means 14 includes a base 15 which is supported at its ends on the longitudinal members 11. The spacing between the bases 15 depends upon the voltage of the system. First, second and third insulators 16, 1'7 and 18 are mounted on the base 15' 101 each switch means 14. The first and third insulators 16 and 18 are stationary while the intermediate second insulator 17 is rotatably mounted. A line contact member, shown generally at 19, is stationarily mounted on the first insulator 16. The details of construction of the line terminals 19 are set forth in the patent above referred to. A line terminal, shown generally at 213, is stationarily mounted onthe third insulator 18. It will be understood that the line conductors are connected to the line contact member 19 and to the line terminal 211.

Rotatable with the second insulator 17 is a shaft 21 which projects upwardly through a metallic housing 22 that is held stationary with respect to the second insulator 17 and constitutes a terminal intermediate the line contact member 19 and the line terminal 20. One end of a load current interrupter, shown generally at 23, is secured to one side of the housing 22 while its other end is secured to the line terminal 211. In series with the load current interrupter 23 is a disconnecting switch that is shown generally at 24. It includes a switch blade 25 which is rotatably mounted on the housing 22 and also is mounted, as will be described hereinafter, to rotate about its longitudinal axis for high pressure contact engagement with the line contact member 19 which forms the stationary part of the disconnecting switch 24.

The switch means 14 is shown in the closed position in FIGS. 1, 4 and 5 of the drawings. In this position the load current interrupter 23 is closed and the disconnecting switch 24 is closed. In accordance with this invention provision is made for opening the circuit first by means of the load current interrupter 23. This is effected during the initial portion of the rotation of the second insulator 17 from a position corresponding to the switch closed position to its position which corresponds to the switch open position. When starting to open the switch means 14, rotation of the second insulator 17 through a small arc effects rotation of the switch blade 25 about its longitudinal axis but, before it separates from the line contact member 19, the circuit has been interrupted and current ceases to flow as the result of operation of the load current interrupter 23. On continued rotation of the second insulator 17, the switch blade 25 is swung to the open position which is slightly more than away from the horizontal position shown in the drawings. During the movement of the switch blade 25 to the open position, which is essentially a vertical upright position, the spring which is released on initial movement of the second insulator 17 for operating the load current interrupter 23 is recocked and the contacts of the load current interrupter 23 are reclosed. When the second insulator 17 is rotated in the opposite direction, the only function performed thereby is the swinging of the switch blade 25 from the vertical position to the horizontal switch closed position terminating in a rotation of the switch blade 25 about its longitudinal axis to move it into high pressure contact engagement with the line contact member 19. The circuit is completed between the switch blade 25 and the line contact member 11 since the load current interrupter 23 is closed.

Once the operator has begun the sequence for opening the contacts of the load current interrupter 23 and swinging of the switch blade 25 to the open position, provision is made, as described hereinafter, for preventing a reverse movement of the second insulator 17 until the switch blade 25 has been swung to the full open position accompanied by the reclosure of the contacts in the load current interrupter 23 and recocking of its operating spring.

On operation toward reclosure of the circuit, should the operator decide to reopen the switch blade 25 of each switch means 14 after he has moved it into close proximity with the line contact member 19, he can do so. However, the operating mechanism is so arranged that the switch blade 25, under these circumstances, must be returned to the full open position and at the same time the contacts of the load current interrupter 23 are opened and subsequently closed and the operating spring mechanism therefor recocked during the final portion of the movement of the switch blade 25 to the open circuit position.

The contacts of the load interrupter 23 are reclosed only after adequate disconnect distance has been established between the line contact member 19 and the switch blade 25 and after the switch blade is open to prevent the flow of leakage current across the gaps of the interrupter units due to normal frequency voltage or to the surge voltages that may be present where the line contact member 19 is connected to an energized line. Since the contacts of the load interrupter 23 are closed when the switch blade 25 is swung to closed position, the switch blade 25 closes against a fault if such should exist. This prevents damage to the load interrupter 23 by large fault giaking currents which can be carried but not interrupted y it.

Should the operator swing the switch blade 25 into close proximity with line contact member 19 and then decide not to complete the closure of the switch because of encounter with ice or other mechanical obstruction or for other reasons, on reversal of movement of the switch blade 25, the load interrupter 23 is opened. a This prevents, the formation of a large unconfined are. When an arc is drawn under these circumstances, the current flow therethrough is interrupted by the load interrupter 23.

before a large arc can form and get out of control. As will presently appear, a number of tripping points are provided which permit reversal of closing movement of the switch blade 25. This gives the operator considerable latitude in operation and permits him to decide when the switch blade 25 is close enough to cause an arc to strike to the line contact member 19, or to permit interruption should the switch blade 25 be touching arcing tips (to be described), or to permit interruption because the switch blade 25 is not fully seated as may be the case where ice is involved. Also the operator can proceed from a fully closed switch position.

In FIG. 1 it will be noted that a rotatable fitting 26 is provided on which each insulator 17 is carried and by means of which it is rotated to effect the sequence of operations just outlined. Extending from each rotatable fitting 26 is an arm 27 to the outer end of which one end of a link 28 is pivotally connected. The other end of the link 28 is pivotally connected to a link 29 which is secured to a shaft 399 that is journaled in a bearing 31 which is mounted on the respective base 15. Also fastened to the shaft 3t? is an arm 32 which is pivoted to a fitting 33 that is fast on an interphase rod 34 common to the three switch means 14. The arm 32 is clamped to the shaft 3% and thereby it can be adjusted readily in relation to the link 29 to accommodate variation in the spacing between the switch means 14 and other dimensions and clearances of the entire assembly to the end that the positioning of the interphase rod 34 is not critical. The lengths of the links 2% and 29 and of the arm 32 are such and they are so related that the effort of the operator in opening the several switch means 14 is expended at maximum mechanical advantage during the cycle of operation when the load is the greatest.

Any suitable means can be employed for moving the interphase rod 34 from one position to the other in order to rotate the second insulators 17 between the closed and open position of the respective switch means 14. The operating means provided for moving the interphase rods 34 should be such as to require that a complete cycle of operation be effected after a switch opening operation has been initiated. The interphase rod 34 is operated through the agency of a rod 35 which is pivotally connected to one arm of a bell crank as while the other end, as shown in FIG. 3 of the drawings, is connected by a vertical rod 37 to an operator, shown generally at 38, of the ratchet type which includes an operating handle member 39 for manual operation by a lineman. The details of construction of the operator 33 are set forth in the patent above referred to.

When the switch blade 25 has been operated to the full open position the links 23 and 29 are moved past the center position shown by full lines in FIG. 2 to their overcenter position, shown by broken lines, where further movement is prevented by a toggle stop it) carried by the respective base'ld. This toggle arrangement provides sufficient leeway to ccommodate maladjustment of the various components and insures that each load interrupter 23 fully latches without requiring critical adjustment of the operating linkages.

It will be recalled that the switch blade 25, in the switch closed position, makes contact with the line contact member 19. The switch blade 2 is provided at its outer end with an arcing tip 52 which is arranged to provide the initial and final contact engagement between the switch blade 25 and the line contact member 19. The arcing tip 42 constitutes an endwise extension of the switch blade 25 and can be readily removed and replaced should it become eroded due to arcing. It is arranged to engage and disengage flexible arcing horns 43 and 44 having circular cross sections which are secured in staggered relation to a base portion of a contact housing member which is shown, generally, at 4'7. It will be noted that the arcing horns 43 and 44- are spaced apart along 6 the arcing tip 42 a distance several times the transverse dimension or diameter of the arcing horns 43 and 44. The housing member 47 is arranged to be mounted on the first insulator 16 as is shown more clearly in PEG. 5 of the drawings.

it is desirable that the switch blade 25 have high pressure contact engagement with the line contact member 19. The reason for this is to improve the current carrying capacity and reduce heating. For this purpose the switch blade 25 at its swinging end is provided with laterally extending cars 51 that are arranged to be rotated on rotation of the switch blade 25 about its longitudinal axis into and out of high pressure contact engagement with downturned bifurcated inner branches of inverted generally U-shaped contact members 53 that are formed preferably of copper and have substantial inherent resiliency.

Any suitable means can be employed for effecting the twisting of the switch blade 25 about its longitudinal axis to relieve the high pressure contact engagement with the line contact member 19 and subsequent swinging of the switch blade 25 to the vertical open position by rotation of the shaft 21 together with the rotation of the second insulator 17. For example, the operating mechanism disclosed in Gussow application Serial No. 417,655, filed May 22, 1954, now Patent No. 2,818,474, issued December 31, 1957, can be employed.

In FIGS. 6 and 7 of the drawings a suitable mechanism for interconnecting the shaft Zll and switch blade 25 is illustrated. It includes a switch crank 68 that is non-rotatably secured to the shaft 21 by a key 69. The rotation of the shaft 21 is limited to about by stop shoulders 7d and 7f. In the closed position of the switch blade 25, as shown in FIG. 7, the stop shoulder 71 is in engagement with one side of a stop 72 that is secured in position on the mechanism housing 22 by bolts 72. In the open position of the switch blade 25, the stop shoulder 79 engages the opposite side of the stop 72. In this manner the rotation of the shaft 21 is limited through the cooperation of the stop shoulders 7d and 71 with the stop 72 and the arrangement is such that the switch blade 25 is rotated about its longitudinal axis and swung to the Open position while the switch crank as is moving from the position shown in FIG. 7 of the drawings to a position in which the stop shoulder 76B engages the stop 72. During this movement of the shaft 21, the mechanism within the mechanism housing 22 functions, as will be described in detail hereinafter, first to effect the interruption of the circuit by operation of the load current interrupter 23 before the switch blade 25 disengages the line contact member 19 and then, during the latter part of the movement of the shaft 21, the contacts of the load current interrupter 23 are reclosed and its operating spring mechanism is recocked. By the time that the stop shoulder 70 engages the stop 72 and further movement is prevented, the switch blade 25 has been swung slightly past the vertical upright position, the contacts of the load current interrupter 23 have been reclosed and its spring has been recocked. During the reverse movement of the switch crank 68, the only operation effected is the swinging of the switch blade 25 from the vertical upright position to the switch closed position where the circuit is completed between the arcing tip 42 and the arcing horns 43 and 44, followed by engagement of the lateral ears 51 of the switch blade 25 with the inner branches 52 of the contact members 53.

The rotary movement of the switch crank 58 is transmitted to the switch blade 25 through a pin 73 which stands upwardly from the switch crank 68 and carries at its upper end a ball 74 which fits in a socket 75 to which a link '76 is connected that carries at its other end a clevis 77. The arms of the clevis 77 are pivotally connected to a pin 78 to a head 79 that is formed integrally with an arm 3t) which is provided with a clamp portion 31 that surrounds the hinge end of the switch blade 25 and is 

1. A CIRCUIT INTERRUPTER COMPRISING, IN COMBINATION, A PLURALITY OF PAIRS OF SEPARABLE MAIN CONTACTS CONNECTED IN SERIES CIRCUIT RELATION, A PLURALITY OF PAIRS OF SEPARABLE AUXILIARY CONTACTS CONNECTED IN SERIES CIRCUIT RELATION, CIRCUIT MEANS DIRECTLY AND UNINTERRUPTEDLY CONNECTING EACH PAIR OF MAIN CONTACTS IN PARALLEL CIRCUIT RELATION WITH A PAIR OF AUXILIARY CONTACTS, VOLTAGE DIVIDING RESISTANCE MEANS DIRECTLY AND UNINTERRUPTEDLY CONNECTED IN PARALLEL CIRCUIT RELATION WITH EACH PAIR OF PARALLEL CONNECTED MAIN AND AUXILIARY CONTACTS WHEREBY THE DIVISION OF VOLTAGE ACROSS EACH PAIR DURING CIRCUIT OPENING AND IN OPEN POSITION IS INDIVIDUALLY CONTROLLED; AND MEANS FOR SIMULTANEOUSLY OPENING SAID MAIN CONTACTS TO TRANSFER THE CURRENT FLOW TO SAID AUXILIARY CONTACTS AND SUBSEQUENTLY SIMULTANEOUSLY OPENING SAID AUXILIARY CONTACTS TO EFFECT CIRCUIT INTERRUPTION BY SAID AUXILIARY CONTACTS, SAID MEANS INCLUDING AN 